Analog multiplexer configured to reduce kickback perturbation in image sensor readout
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0329832
(2008-12-08)
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등록번호 |
US-8184184
(2012-05-22)
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발명자
/ 주소 |
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출원인 / 주소 |
- OmniVision Technologies, Inc.
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대리인 / 주소 |
Blakely Sokoloff Taylor & Zafman LLP
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인용정보 |
피인용 횟수 :
4 인용 특허 :
1 |
초록
▼
An analog multiplexer is configured to multiplex a plurality of input analog signal channels into a single output analog signal channel. The analog multiplexer comprises a plurality of input sampling circuits associated with respective ones of the input analog signal channels and an amplifier having
An analog multiplexer is configured to multiplex a plurality of input analog signal channels into a single output analog signal channel. The analog multiplexer comprises a plurality of input sampling circuits associated with respective ones of the input analog signal channels and an amplifier having an input controllably connectable in turn to each of the input sampling circuits. The analog multiplexer is further configured to connect at least a given one of the input analog signal channels to a sampling element of its corresponding input sampling circuit at a predetermined time prior to connecting the sampling element of that input sampling circuit to the input of the amplifier. The predetermined time is less than a full clock cycle of a sampling clock of the amplifier. The analog multiplexer may be implemented in readout circuitry coupled to a pixel array in an image sensor.
대표청구항
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1. An analog multiplexer for multiplexing a plurality of input analog signal channels into a single output analog signal channel, the multiplexer comprising: a plurality of input sampling circuits associated with respective ones of the input analog signal channels, the input sampling circuits each c
1. An analog multiplexer for multiplexing a plurality of input analog signal channels into a single output analog signal channel, the multiplexer comprising: a plurality of input sampling circuits associated with respective ones of the input analog signal channels, the input sampling circuits each comprising positive and negative inputs coupled to respective positive and negative differential signal lines of a corresponding input analog signal channel; anda differential amplifier having positive and negative inputs controllably connectable in turn to each of the input sampling circuits;wherein the analog multiplexer is further configured to connect the positive and negative inputs of a given input sampling circuit to respective first plates of respective first and second sampling capacitors at a predetermined time prior to connecting respective second plates of the first and second sampling capacitors to the respective positive and negative inputs of the differential amplifier;wherein the predetermined time is less than a full clock cycle of a sampling clock of the amplifier; andwherein the given input sampling circuit comprises: a positive signal path having a first switch coupled between the positive input of the input sampling circuit and a first plate of a first sampling capacitor;a negative signal path having a second switch coupled between the negative input of the input sampling circuit and a first plate of a second sampling capacitor;third and fourth switches coupled between respective second plates of the first and second sampling capacitors and a common mode voltage reference; andfifth and sixth switches arranged in series with the respective first and second switches and the respective first and second sampling capacitors in the respective positive and negative signal paths and coupled between the respective second plates of the first and second sampling capacitors and the respective positive and negative inputs of the differential amplifier. 2. The multiplexer of claim 1 wherein the amplifier is operated at a sampling speed which is greater than a sampling speed of the input sampling circuits. 3. The multiplexer of claim 2 wherein the sampling speed of the amplifier is at least twice the sampling speed of the input sampling circuits. 4. The multiplexer of claim 2 wherein the predetermined time is approximately one half of the full clock cycle of the sampling clock of the amplifier. 5. The multiplexer of claim 1 wherein at least one of the input analog signal channels comprises a programmable gain amplifier. 6. The multiplexer of claim 1 wherein the sampling element comprises a sampling capacitor and a first plate of the sampling capacitor is connected to the given input analog signal channel at the predetermined time prior to a second plate of the sampling capacitor being connected to the input of the amplifier. 7. The multiplexer of claim 1 wherein the given input sampling circuit further comprises: seventh and eighth switches coupled between the respective first plates of the first and second sampling capacitors and respective upper and lower voltage references; anda ninth switch coupled between the respective first plates of the first and second sampling capacitors. 8. The multiplexer of claim 7 wherein in a given phase of operation of the multiplexer the third, fourth and ninth switches are closed, and the first, second, fifth, sixth, seventh and eighth switches are open, such that the positive and negative inputs of the input sampling circuit are disconnected from the respective first plates of the respective first and second sampling capacitors, the first plates of the first and second sampling capacitors are connected to one another, the second plates of the first and second sampling capacitors are connected to the common mode voltage reference, and the second plates of the first and second sampling capacitors are disconnected from the respective positive and negative inputs of the differential amplifier. 9. The multiplexer of claim 7 wherein in a given phase of operation of the multiplexer the first, second, third and fourth switches are closed, and the fifth, sixth, seventh, eighth and ninth switches are open, such that the positive and negative inputs of the input sampling circuit are connected to the respective first plates of the respective first and second sampling capacitors, and the second plates of the first and second sampling capacitors are disconnected from the respective positive and negative inputs of the differential amplifier and connected to the common mode voltage reference. 10. The multiplexer of claim 7 wherein in a given phase of operation of the multiplexer the first, second, fifth and sixth switches are closed and the third, fourth, seventh, eighth and ninth switches are open, such that the positive and negative inputs of the input sampling circuit are connected to the respective first plates of the respective first and second sampling capacitors, and the second plates of the first and second sampling capacitors are connected to the respective positive and negative inputs of the differential amplifier. 11. The multiplexer of claim 7 wherein in a given phase of operation of the multiplexer the fifth, sixth, seventh and eighth switches are closed and the first, second, third, fourth and ninth switches are open, such that the positive and negative inputs of the input sampling circuit are disconnected from the respective first plates of the respective first and second sampling capacitors, the first plates of the respective first and second sampling capacitors are connected to the respective upper and lower voltage references, and the second plates of the first and second sampling capacitors are connected to the respective positive and negative inputs of the differential amplifier. 12. The multiplexer of claim 1 wherein the amplifier is configured to provide output reference offset cancellation. 13. An analog multiplexing method comprising the steps of: receiving a plurality of input analog signal channels on respective positive and negative differential signal lines of each input analog signal channel; andcombining the plurality of input analog signal channels into a single output analog signal channel in an analog multiplexer comprising a plurality of input sampling circuits associated with respective ones of the input analog signal channels and a differential amplifier having positive and negative inputs controllably connectable in turn to each of the input sampling circuits;wherein in conjunction with the combining step at least a given one of the input analog signal channels is connected to a sampling element of its corresponding input sampling circuit at a predetermined time prior to connecting the sampling element of that input sampling circuit to the input of the amplifier;wherein the predetermined time is less than a full clock cycle of a sampling clock of the amplifier; and wherein the combining further comprises:coupling positive and negative differential signal lines of a corresponding input analog signal channel with first plates of first and second sampling capacitors through closed first and second switches while second plates of the first and second sampling capacitors are coupled to a common mode voltage reference through closed third and forth switches and while open fifth and sixth switches decouple the second plates from respective positive and negative inputs of the differential amplifier;sampling the positive and negative input signals through closed fifth and sixth switches coupling the second plates of the first and second sampling capacitors to the respective positive and negative inputs of the differential amplifier while open third and fourth switches decouple the second plates from the common mode voltage; andopening the first and second switches to decouple the first plates of first and second sampling capacitors from the input analog signal channel while charge is transferred from the first and second capacitors for amplification by the differential amplifier. 14. The method of claim 13 wherein the combining further comprises neturalizing signals remaining on the first and second sampling capacitors by coupling the first plates to the common mode voltage reference through closed third and fourth switches while the first, second, fifth and sixth switches are open. 15. An image sensor comprising: a pixel array; andreadout circuitry coupled to the pixel array;the readout circuitry comprising an analog multiplexer configured to multiplex a plurality of input analog signal channels into a single output analog signal channel;the analog multiplexer comprising a plurality of input sampling circuits associated with respective ones of the input analog signal channels and a differential amplifier having positive and negative inputs controllably connectable in turn to each of the input sampling circuits, the sampling circuits each comprising positive and negative inputs coupled to respective positive and negative differential signal lines of a corresponding input analog signal channel;wherein the analog multiplexer is further configured to connect the positive and negative inputs of a given input sampling circuit to respective first plates of respective first and second sampling capacitors at the predetermined time prior to connecting respective second plates of the first and second sampling capacitors to the respective positive and negative inputs of the differential amplifier;wherein the predetermined time is less than a full clock cycle of a sampling clock of the amplifier; andwherein the given input sampling circuit comprises: a positive signal path having a first switch coupled between the positive input of the input sampling circuit and a first plate of a first sampling capacitor;a negative signal path having a second switch coupled between the negative input of the input sampling circuit and a first plate of a second sampling capacitor;third and fourth switches coupled between respective second plates of the first and second sampling capacitors and a common mode voltage reference; andfifth and sixth switches arranged in series with the respective first and second switches and the respective first and second sampling capacitors in the respective positive and negative signal paths and coupled between the respective second plates of the first and second sampling capacitors and the respective positive and negative inputs of the differential amplifier. 16. The image sensor of claim 15 wherein the readout circuitry further comprises an analog-to-digital converter and the amplifier is implemented in an input sampling stage of the analog-to-digital converter. 17. A digital imaging device comprising the image sensor of claim 16.
이 특허에 인용된 특허 (1)
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Bayer Bryce E. (Rochester NY), Color imaging array.
이 특허를 인용한 특허 (4)
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Compton, John T.; Hamilton, Jr., John F., Image sensor with improved light sensitivity.
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Hamilton, Jr., John F.; Compton, John T., Processing color and panchromatic pixels.
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Hamilton, Jr., John F.; Compton, John T., Processing color and panchromatic pixels.
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Enge, Amy D.; Compton, John T.; Pillman, Bruce H., Providing multiple video signals from single sensor.
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